AU621556B2 - Specific dna molecular probes for bos-type male genome - Google Patents
Specific dna molecular probes for bos-type male genome Download PDFInfo
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- AU621556B2 AU621556B2 AU23218/88A AU2321888A AU621556B2 AU 621556 B2 AU621556 B2 AU 621556B2 AU 23218/88 A AU23218/88 A AU 23218/88A AU 2321888 A AU2321888 A AU 2321888A AU 621556 B2 AU621556 B2 AU 621556B2
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Description
The present invention relates to specific DNA molecular probes useful for the determination of the sex or sexing of ruminant embryos or foeti, particularly of the sub-family of bovines, and in particular of the bos genus, having DNA sequences specific of the male sex, as well as to flanking or primer sequences for the genetic amplification of these probes the present invention also encompasses the applications of said probes preferably amplified by means of the above-said flanking sequenc9s, and particularly their applications to the determination of the sex of embryos and of foeti.of the above-said ruminants, and for checking the presence of the Y chromosome in a spermatozoa population as well as to the separation of said popqlation into two groups comprising respectively to the Y chromosome and the X chromosome, for artificial insemination.
The international application PCT 86/07095 in the name of THE SALK INSTITUTE BIOTECHNOLOGY INDUSTRIAL ASSOCIATES, filed May 1986 claiming a priority US Serial Number 739 817 of 31 May 1985 and published 4 December 1986, describes nucleic acid probes for the pre-natal sexing of males of the Bos genus, more particularly of the Hereford nd HRolstein breeds. These probes which have the characteristic ofbeing formed ot nucleic acids which hybridize significantly with the total DNA of males of one of the aforesaid breeds of the Bos genus, comprise a) Either a segment which has substantially the same sequence as the smallest PstI fragment of the plasmid pES5 or the smallest fragment PstI of the plasmid PES8, or the 6.2 kbp EcoRI fragment of the genome of b) or any segment greater than length of 20 bp of anyone of the segments enumerated under a) c) or either of the strands of one of the segments enumerated under a) and b) d) or the single or double stranded RNA, having L ~the same sequence as one of the segments enume- Sated under b) and c) above.
2 However, although the RNA is mentioned in this PCT International Application (see d) above), it seems that the preferred nucleic acids are the DNA and are constituted by the EcoRI fragment of 6.2 kbp, 4.0 kbp or 2.2. kbp of the genome of the In accordance with this International Application, the method of sexing embryos or foeti of the Bos genus consists of placing in contact the DNA of cells of the embryo or of the foetus, in hybridization conditions, with one or several hybridization probes as defined above, each labelled detectably verifying a significant hybridization is produced between the DNA of the cells of the embryo or of the foetus and the one or more hybridization probes.
According to the PCT International Application concerned, the hybridization probes are obtainedby nick-translation and the embryo or foetus DNA would only come from at least 4,'bfut preferably from at least 10, embryo cells.
The PCT International Application 86/07095 describes in addition a method for isolatinga DNA clone coming from a genome bank of the males of the species concerned which consists of screening the genomi.libraryby hybridization of nucleic acids with a male-specific probe comprising the total male DNA and the total female DNA of the species, to identify the clones of thelibrary which comprise the DNA which hybridizes with a fragment containing a male specific DNA segment said.-screening being performed on a solid support pre-hybridized with the total female DNA of the species, fragmented randomly to have an average length of about 20 or 1000 nucleotides then identifying the clones of the libmryidentified in the course of the screening, which shelter the DNA which hybridizes considerably more with the total male DNA of the species than with the total female DNA of said species.
In practice, to permit detectable hybridization withthe small amounts of embryonic DNA available in the small number of cells which can be taken out from the embryos or foeti to be sexed, it is 4iA preferred for the nucleic acids used as probes to be labelled x r- I 3 with radioactive atoms and it seems also preferable to use conjointly two of the above defined probes.
Three male-specific probes were obtained,df which the first corresponds to the RsAI fragment of 5-6 kbp of male bovine DNA, the second to the RsaI-EcoRI fragment of 4 kbp of male bovine DNA and the third to the EcoRI fragment of 2.2 kbp of male bovine DNA, and their sequence in nucleotides has been at least in part identified.
However, due to their length itself, it is difficult to envisage synthetizing such probes, of which nothing indicates, after all, in said PCT International Application, what are the segments of these sequencies which are "specifically" male-specific and are in fact useful for the sexing of embryos, and which have manifestly not been identified.
Applicants have, on their side, isolated a specific DNA molecular probe of DNA specific male genome of mammals, particularly of the Bos genus which the Inventors have besides succeeded in synthetizing of which the hybridization profile (determined by hybridazation of said probe with the male genomic DNA digested with EcoRI) shows the presence of band of the order of 7 kb specific for the male genome of the Bos genus (and absent from the feuale genomic DNA), which probe which has received the name bc.1.2. comprises 49 pairs of bases whose sequence in nucleotides is as- follows 5' 3' ATCAGTGCAGGGACCGAGATGTGCTCCAAGGAGTGTTTATCGGCTGCTT (A) or a fragment of said sequence comprisinq at least 11 nucleotides.
This probe is described and claimed in a Patent Application filed in France in the name of the Applicants onthe date of 28 February 1986, under no. 86 02811, and its applications are described and claimed, on the one hand, in said application, and, on the other hand, in a Certificate of Addition to this application, which was filed in France on 9 September 1986, under no. 86 12616.
I*Ln^N ,Y I 4 Within the compassof pursuina their research with the object of stating whether the specificity of the recognition of the male genome could be identified in a segment of the sequence of 49 nucleotides which constitutes the probe according to French Patent Application no. 86 02811, the Inventors have established that within.this sequence, segments or fragments of several cnsecutive nucleotides show the hybridization profile defined in their Patent Application of February 1986 and are specific to the male genome of the Bos genus.
The possibility of having available a probe comprising a sequence of nucleotides of short-length has considerable interest, since it permits the synthesis at will, at industrially acceptable cost prices, of such a probe which, through this fact, is completely pure and does not cause background noises.
In addition, the Inventors have succeeded in identifying the flanking segments of said probes, which has permitted them to amplify the latter and has the consequence of increasing their sensitivity, of ensuring a reliability in the determination of the sex of embryos of the order of 100 and of reducinq the time necessary for such a determination.
Moreover, the Inventors have been able to establish that the segments or fragments of DNA of short-length which are male-specific, that they have identified and synthetized can play the role both of probes and of flanking segments, or primers.
It is an object of the present invention to provide synthetic oligo-nucleotides which are characterized in tha- they are constituted by fragments of a molecular probe comprising a sequence of nucleotides of 49 pairs of bases, of the Formula A, below 3' ATCAGTGCAOGGACCGAGATTGCTCCAAGGAGTGTTTATCGGCTGCTT
(A)
0 known in itself, and constituting a DNA-segment specific of the male genome of ruminant mammals, particularly of the Bos genus, which fragments are themselves characterized in that they comprise at least 10 bases of said sequence(A), among which are at least 5 consecutive bases of the latter, as well as their complementary fragments or any fragment having at least 60 homology with said oligo-nucleotides.
According to an advantageous embodiment of the invention, the synthetic oligo-nucleotides according to the invention are characterized in that they are constituted by fragments of the molecular probe which comprise 17 bases, among which are at least 5 consecutive bases of the latter and in that they correspond to formulae to below 51 7
GATCAGTGCAGGGACCG
3'
CAGGGACCGAGATGTGC
5' 3' F-
GGACCGAGATGTGCTCC
5' 3' r--
AGATGTGCTCCAAGGAG
3'
'CTCCAAGGAGTGTTTAT
3'
AGGAGTGTTTATCGGCT
3'
TTATCGGCTGCTTGATC
5' 3
"TGGTTGAGCTCAGGGAC
CO
i 6 as well as their complementary fragments or any fragment having at least 60 homology with said oligo-nucleotides.
In another advantageous embodiment of the invention, the synthetic oligo-nucleotides according to the invention are characterized in that they are constituted by fragments of the molecular probe which comprise 20 bases each and have the sequences of nucleotides shown by formulae to below 3'
ATCAGTGCAGGGACCGAGAT
3'
GTGCTCCAAGGAGTGTTTAT
3' (11) GGACCGAGATGTGCTCCAAG as well as their complementaryfragmentsor a fragment of said sequences comprising at least 5 consecutive nucleotides or any fragment having at least 60 homology with said sequences.
It is emphasized that the sequence corresponds to a fragment of the probe of 49 bp of formula which extends from base 1 to base 20, that sequence (10) corresponds to a fragment of the probe of 49 bp formula which extends from base 21 to base 40 and that the sequence (11) corresponds to a fragment of said probe which extends from the base 11 to base The International PCT Application no. 86/07095 in the name of THE SALK INSTITUTE BIOTECHNOLOGY INDUSTRIAL ASSOCIATES INC. (abbreviated "SIBIA") filedon30May 1986 claiming the priority of an initial application of 31 May 1985 in the United States, described, as indicated above, the partial sequence of total (chromosomic) DNA extracted from bovine cells and particularly describes sequences constituting respectively the RsaI fragment of 5-6 kbp and the EcoRI fragment of 4 kbp the bovine male DNA and this applicationhasgiven the partial sequence mprising these two fragments, j C
O
I 'TE 7 The Inventors have, on their side, syntheti.zed a certain number of fragments of the bovine DNA sequence and have been able to establish that these fragments on the one hand, are male-specific, and are suitable for constituting molecular probes for the sexing, of embryos,and on the other hand, are suitable to play the part of primers or flanking segments- and, consequently, to amplify the fragments of the DNA sequence which play the part of the probes, particularly the molecular probe which is also the case of fragments to and to (11) each of which can as just as well play the part of a primer or flanking segment- of another of these fragments used as a probe, as the part of the probe amplified by each of said fragments.
According to the present invention, said fragments of the bovine DNA sequence are characterized in that they have the sequences in nucleotides shown by the formulas (12) to (29) below 3' r
ACCGGTCTAGGTCTAGCCCTTTTGTCGGGACGCACATCACAGGCTCCTGACCCCCCATCTC
(12) 3'
GGTAGAGCCCGCATCTCGGTCCCCGCGGTGAACCTGGCCCGGTTCCTACCCCAGT
8 (13) 3'
CTGAGGCCTCCTCTCGCACTCTGCCCTGAAGCCGTGCGCGTCCTGCCCTCGATCAGACCT
1 4 31 3 FACAGGGTGGGCCGTGCCCTCGTTCAGTCACCCGGGAAACACTGCTGAGCCCGCATCTTG (1
U
i j^ -8- 3' ACACTGCTGAGCCCGCATCTTGATCCCCGCGCTAAACCT GGCCGGCTCCTACCCCCAGG (16) 51 3' r-
ACCGGTCTA'GTCTGGCCCTTGTTCGATTCACTCAGCACAGACTCCTGAGCCCCCATCTC
(17) 31 AGCTGTGATCCC GCAGCTCANITCCCGGCACTGAAGCC ACCTCTGGGGCTTGGCCTGCTTE (18) 5' 3' AGAAGC AGTCTAG.GGCCTGCCT TGTTCGGAATTCGGATJGGATGCTGCCCTTGGGCAACAJ' (19) 51 3' T.TCGGA AT TCG GAT GGAT GCT GC CCTT GGGC AAC ACC CCCAC CGC CC CCAAAC TCACAll"A 31 A GCTCAACCACGGTGGTTTCTGCCTCTGGCCAAGGCCCTCGACAATCAATCCTGAGCCCA 51 3' RTCTCACGCGCTGCACTAAACC- ACGCAGAGTTCCGCCCTTCCTGAAGTGCCCGTCTAAA'v (22) 3'
ACCAGTCGAGGTCCTGCCCTTTGTGCGGGCCCCTAGCACAGACTCCCGACCCAAACCTCT
(23) 5' 3' 'A0ACTGCTGAGCCCGCATCTTGATCCCCGCGCTAAACCTGGCCGGGCTCCTACCCCCAGG (24) 51 3'
ACCGGTCTAGUGTCTGGCCCTTGTTCGATTCACTCAGCACAGACTCCTGAGCCCCCATCT~
51 31 r--
CCCCCGCCCGGTGTCTGCACTGATCAGGCTGGCTCCTGCCCTCGGTCAAGACCCTGG
(26) 3' AGCAG-GC TGGC TCCTGCCTTCGTTCAAGCACCTGGCAAAGTAACCGCCGGGAGACTCCAG (27) r~ :1 9 3'
SGOCTGTGATCCCGCAGCTCACTCCCGGACTGAAGCCACCTCTGGGGCTTGGCCTGCTTC
(28) 3' t
'AGAAGCAGTCTAGGCGCCTGCCTTCTTCGATTCCCCGACACACACTCCTGAGCCACAGCT
(29) It is also an object to the present invention to provide a method of a geni.c amplification of a molecular probe of DNA specific of the male genome of mammals, particularly of ruminants, more particularly of the sub-family of bovines and specifically of the genus Bos, which probe has one the sequences of nucleotides of formulae and to (29) above, which method of amplification consists in fixing at each of of the ends, respectively, of said molecular probe, a flanking sequence judiciously selected from among the DNA fragments of formulae to (29) such as defined above, by hybridization, then in applying a procedure of enzymatic extension by means of DNA polymerase, followed by a denaturation process, and in repeating the cycle hybridization-extension-denaturation, known under the name of PCR cycle, a sufficient number of times to increase the amount of the sequence constituting the starting molecular probe in an exponantial proportion with respect to the number of cycles employed.
The bovine DNA fragments useful as molecular probes of DNA specific of 'the male genome. of the mammals mentioned above, or as flanking segments of these probes, identified above, can be, as the case may require, advantageously amplified according Sto the present invention, and duly labelled with a radio-isotope or with a suitable non-radioactive substance, are used as described in French Patent Application no. 86 02811 and/or in its Certificate of Addition no. 86 12616, for the sexing of embryos or of foeti or for checking the presence of the Y chromosome in a spermatozoa population, or again for the separation of spermatozoa into two populations of spermatozoa 1- i bearing respectively the Y chromosome and the X chromosome for their use in artificial insemination.
It is also an object to the present invention to provide a method for the preparation of monoclonal or polyclonal antibodies by immunisation of rodent mammals with the spermatozoa fragment bearing the Y or X chromosome checked by hybridization with a bovine DNA fragment of formula tc or a probe of formula amplified by one or several primers or flanking segments of formulae to (29).
The present invention has in addition, the object of providing specific immunological reagents recognizing antigenic determinants checked by the X or Y chromosomes which have served for obtaining said reagents and expressed at the surface of the spermatozoas, characterized in that they are constituted by antibodies obtained by employing the aforesaid method, if necessary purified.
Besides the foregoing features, the invention comprises yet other features which will emerge from the description which follows.
The invention will be better understood by means of the additional description which follows, which refers to examples of praticing the present invention.
It must however be understood, that these examples are given purely by illustration of the invention, of which they do not constitute in any way a limitation.
EXAMPLE 1 SYNTHESIS AND PURIFICATION OF SYNTHETIC OLIGONUCLEOTIDES OF FORMULAS(1) TO ACCORDING TO THE INVENTION These eight oligonucleotides of 17 pairs of bases each, comprising at least 5 consecutive bases of the molecular probe which correspond respectively to the formulae to given below r/c 'I i r 1. r 51 3
GATCAGTGCAGGGACCG
51 3'
CAGGGACCGAGATGTGC
3'
G'GACCGAGATGTGCTCC
3'
AGATGTGCTCCAAGGA
3'
CTCCAAGGAGTGTTTAT
51 3'
AGGAGTGTTTATCGGCT
3'
TTATCGGCTGCTTGATC
5' 3'
TGGTTGAGCTCAGGGAC
are fragments of the segments of 49 bp which has the nucleotide composition indicated above.
Their chemical synthesis was performed by means of an automatic synthetizor "APPLIED BIOSYSTEMS" by the solid phase phosphoramidite technique.
The reaction being 95-97 effective at each step, it was necessary to purify the final product (sub-fragments (1) to of the intermediate oligonucleotides. About 7 mg of the oligonucleotides mixture in 60 4l H 2 0 were separated by electrophoresis in a 20 polyacrylamide gel 8 M urea at 700 V, 38mA for 3 hours. Thebands corresponding to the 17 mer are marked by means of an aluminum foil coated with silica gel, fluorescent at 254 nm (Merck).
This portion of the gelwas cut off, then the DNA was eluted in ml of 0.5 M CH3COONH 4 solution 5 mM EDTA with stirring at 370 C for 16 hours.
The supernatant is concentrated to about 300 l and the urea C 2A r -LI--l i i L- and the X chromosome, for artificial insemination.
CLAIM
1. A synthetic oiigonucleotide specific for the male genome of ruminants, particularly of the Bos genus comprising 17 bases and having a nucleotide sequence selected from the group consisting of the formulae 1 to 8 below: /2 12 is removed by chromatography on a column 10 cr X 1 cm of Sephadex G-50 (Pharmacia) equilibrated with the 10 mM-Tris-HCl pH 7.5 1 mM EDTA buffer. The DNA thus isolated is freeze-dried and stored at 2 0
C.
RADIOACTIVE LABELLING 32 p) OF THE SYNTHETIC FRAGMENTS (1) TO (Monostrand) to 20 pM of fragments to in a volume of 3 .1 are added to 23 .1 of the reaction mixture composed of 100 mM dithiothrditol (2.5 10 mM spermidine (2.5 1l), 500 mM Tris-HCl incubation buffer pH 7.5 100 mM MgC1 2 100 pCi 2) adenosine triphosphate-ATP 3000Ci/mmole (Amersham) and 20 U T4 polynucleotide kinase (Boehringer).
After incubation for 30 mn at 370 C, the reaction is stonped with 2l1 400 mM EDTA and the labelled oligonucleotide is separated from the ATP by chromatography on a column with Sephadex PREHYBRIDIZATION AND HYBRIDIZATION The filters or blots are prehybridized from 42 to 650 C for 1 to 4 hours with a mixture 5xSSPE containing 0.9 M NaC1 50 mM NaHPO pH 7.4 5 mM EDTA pH 7.4 5 X Denhart 0.3 4 mg/ml of sonicated and hydrolyzed salmon sperm DNA 0.5 sodium dodecyl sulfate. The hybridization is carried out in the same mixture. Each of the probes radiolabelled with 32
P,
denaturated at 1000 C for two minutes, is added to the hybridization solution at 1 to 6X10 6 pm/ml.
The hybridization is performed at 40 to 650 C for at least 1 hour. After hybridization, the filters are washed in a 2 X SSC buffer plus SDS, one or twice at 450 C for minutes. The filters are then placed in a cassette equipped with "CRONEX" (DUPONT) intensifiers, placed in contact with a Kodak XAR-5 film for autoradiography for 1 to 16 hours at -700 C.
EXAMPLE 2 SYNTHESIS AND PURIFICATION OF SYNTHETIC OLIGONUCLEOTIDES OF FORMULAE TO (11) ACCORDING TO THE INVENTION
-I
13 These three oligonucleotides of 20 pairs of bases each which correspond respectively to the formulae (9)to (11ii) below 3' GACCGAGATGTGCTCCAAG (11 are fragments of the sequence of 49 pairs of bases of formula of which sequence comprises the bases 1 to 20 of the sequence whilst the sequence (10) comprises the bases 21 to 40 of said sequence and the sequence (11) comprises the bases 11 to 30 of said sequence The synthesis of the fragments to (11) was carried out by taking the sequence as a model.
This chemical synthesis was performed by means of an "Applied Biosystems" automatic synthetizor by the solid phase phosphoramidite technique.
The reaction was 95-97 effective for each probe, it was necessary to purify the final product (sub-fragments to (11) 20 mer) from the intermediate oligonucleotides. About 7 mg of oligonucleotide mixture in 60 pl H 2 0 are separated by electrophoresis in the gel of 20 polyacrylamide 8 M urea at 700 V, 38 mA for 3 hours. Thebands corresponding to the 20 mer are marked by means of an aluminum foil coated with silica gel, fluorescent at 254 nm (Merck). This portion of the gel is cut off, then the DNA eluted in 1.5 ml of the solution 0.5 M CH 3
COONH
4 5mM EDTA with stirring at 370 C for 16 hours.
The supernatant is concentrated to about 300 41 and the urea is removed by chromatography on a 10 cm x 1 cm Sephadex (Pharmacia) column equilibrated with the 10 mM Tris-HCl pH 1 mM EDTA buffer. The DNA thus isolated is freeze-dried and stored at -200 C.
RADIOACTIVE LABELLING (32p) OF THE to (11) SYNTHETIC (Single strand FRAGMENTS Z 1) E1 t'* L I Synthetic oligonucleotides consist of fragments of a molecular probe comprising a nucleoside sequence of 49 pairs of bases of formula Application: as a molecular probe for sexing the embryos or foetuses of ruminant mammals or as a molecular probe for detecting Y chromosomes in a spermatozoid population.
(57) Abrege Oligonucleotides synthetiques constitues par des fragments d'une sonde moleculaire comprenant une sequence en nucl6otides de 49 paires de bases, de formule Application: en tant que sonde mol6culaire pour la determination des sexes d'embryons ou de foetus de mammiferes ruminants ou en tant que sonde moleculaire pour le contr6le de la presence de chromosomes Y dans une population de spermatozoides.
4: I6 IL k L i 11 assaioB 14 to 20 pM of the to (11) fragments in a volume of 3 1 are added to 23 41 of reactional mixture :ompo'ed of 100 m% dithiothrditol (2.5 y1), 10 mM spermidine (2.5 41), incubation buffer 500 mM Tris-HC1 pH 7.5 100 mM MgC1 2 (2.5 j l 100 uCi 32 p) adenosine triphosphate-ATP 3000Ci/ mole (Amersham) and 20 U T4 polynucleotide kinase (Boehringer). After incubation for 30 mn at 370 C, the reaction is stopped with 2 4l 400 mM EDTA and the labelled oligonucleotide is separated from the ATP by chromatography on a column with Sephadex PREHYBRIDIZATION AND HYBRIDIZATION The filters or blots are prehybridized at 550 C for 4 hours with a 5xSSPE mixture containing 0.9 M NaCl 50 mM NaHPO 4 pH 7.4 5 mM EDTA PH 7.4 5 X Denhart 0.3 mg/ml of sonicated and hybridized salmon sperm DNA 0.5 sodium dodecyl sulfate. The hybridization is performed in the same mixture.
Each of the fragments radiolabelled with 32 p denaturated at 1000 C for two minutes, is added to the hybridization solution at 1 to 2 X 106cpm/ml, The hybridization is performed at 550 C for at least 1 hour.
After hybridization, the filters are washed in the 6 x SSC plus 0.1 SDS buffer, once or twice at 650 C for 20 minutes.
filters are then placed in a cassette equipped with "CRONEX" (DUPONT) intensifiers, placed in contact with a Kodak XAR-5 film for autoradiography for 7 to 36 hours at -700 C.
EXAMPLE 3 SYNTHESIS AND PURIFICATION OF THE SYNTHETIC OLIGONUCLEOTIDES OF FORMULAE (12) TO (29) Procedure is as described in Example 1, to prepare DNA fragments of formulae (12) to (29).
EXAMPLE 4 DETERMINATION OF THE SEX OF BOVINE EMBRYOS BY HYBRIDIZATION IN SITU WITH THE BIOTINYLATEDDNAFRAGMENTS (NON-RADIOACTIVE) The OF FORMULAE TO (29) I
K
I i: segments enumerated under a) and D) d) or the single or double stranded RNA, having P the same sequence as one of the segments enumerated under b) and c) above.
A. Preparation of the cells The cells used come from bovine embryos aged 7 to 8 days gestation. After having been dissequated, the cells are deposited on a slide and incubated for 10 to 15 minutes in a fixing solution such as the mixture alcohol-acetic acid (3 1 v/v) then dried in air. Slides are used immediately or, in the case of postponed sexing, stored at 40 C protected from dust.
B. Biotinylation of the DNA fragments of formulae to (29).
The biotinylation of said fragments is performed by the addition at -the 3' end of a biotinylated dUTP or any other biotinylated deoxynucleotide by means of terminaltransferase enzyme (Boehringer).
10 to 20 pM respectively of the synthetized fragments are added to 100 .1 of reactional mixture composed of 140 mM of potassium cacodylate 30 mM Tris-HCl pH 7.6 0.1 mM dithiothrditol 1 mM CoC12 0.02 mM of biotinylated dUTP and 1 to 2 units of terminal-transferase enzyme.
After incubation for 1 hour at 370 C, the labelled oligonucleotide is separated by chromatography on a column with superfine Sephadex C. Technique of Hybridization on slides.
Slides are incubated with 90 to 100 .1 of hybridization liquid and coated with a plastic film (to avoid evaporation).
After denaturation for 10 mn in an oven at 1000 C, the slides are placed in a moist chamber and incubated at 550 C for 16 hours.
Final composition of the hybridization liquid is 0.9 M NaCl 4 mM EDTA 50 mM NaHPO 4 pH 7.4 x Denhart
SDS
Li 9:-i L. L. IL .U In practice, to permit detectable hybridization withthe small amounts of embryonic DNA available in the small number of cells which can be taken out from the embryos or foeti to be sexed, it is SLI preferred for the nucleic acids used as probes to be labelled 16 x Denhart 0.1 BSA, or 0.1 powdered skimmed milk 0.1 polyvinylpyrrolidone 0.1 Ficoll) After having removed the plastic film, the slides are washed successively in a 6 X SSC solution (2 X 30 minutes at 550 C) then in PBS pH 7.4 supplemented with 0.1 v/v of Triton X 100 and 0.5 of powdered skimmed milk (Rdgilait).
D. Dev lopment The still wet slides after removing the excess fluid are then incubated for 1 hour at 370 C with a goat antibody antibiotineor with a 'rabbit antibody anti-biotine. This antibody is sold purified by affinity chromatography (Vector Laboratories ref. SP-3000) and is used in our tests, diluted to 1:350 in PBS pH 7.4 0.1 Triton X 100 0.5 powdered skimmed milk.
After washing 15 minutes at:.the room temperature in PBSpH7.4 0.1 Triton X 100 0.5 powdered skimmed milk, the slides are then incubated 1 hour at 370 C, with a conventional rabbit anti-goat antibody or anti-rak.bit goat coupled with peroxidase (Biosys ref. BI 2403) diluted 1:40 in PBS pH 7.4 Triton 0.1 0.5 powdered skimmed milk.
The slides are then washed twice for 15 minutes in PBS pH 7.4 containing this time 0.1 of Tween 20 and finally in PBS pH 7.4 for 5 minutes.
Incubation for 5 to 8 minutes at room temperature follows with a diaminobenzidine solution (DAB S.GMA ref. D 8001) at mg/ml in PBS pH 7.4 containing 0.01 of H 2 02.
The precipitate formed by the action of peroxidase on the DAB is amplified by successive precipitationsof gold and silver salts by the method described by BURNS et al. (Journal Clinical Pathology 1985, 35, 1085-1092) In a first stage, 50 to 100 pl per slide of a 2.5 mM solution of mM solution of Na (NaAuC1 BDH ref. 30125 2R) Aa (NaAuCl BDH ref. 30125 2R) are deposited and they are incubated 5 mn at room temperature. After washing for 5 mn in the other hand, in a Certificate of Addition to this application, which was filed in France on 9 September 1986, under no. 86 12616.
-I I III I _IlI 17 distilled water, the slides are incubated 5 mn at room temperature with 50 to 100 p. of a 0.1 M solution of Na Sulfide (Na2S, SIGMA ref. S 2006), rinsed 5 mn with distilled water and incubated 4 to 8 mn with 100 to 300 1l of silver reagent.
The composition of the silver reagent is as follows A Na Carbonate 0.24 M (SIGMA ref. S 4132) B1 Ammonium Nitrate 13 mM {SIGMA ref. A 9642) B2 Silver Nitrate 6 mM (BDH ref. 303873N) B3 Dodecatungstosilicic acid 1.5 mM (BDH ref. 305453R) B4 Formaldehyde 37 0.6 pl/ml (SIGMA ref. F 1635) The silver reagent is prepared by mixing successively and with stirring the solutions B1 B2 B3 B4. The mixture obtained is added 1:1 to the sol-tion A and the reagent thus prep.red is used immediately.
After the treatment with the silver reagent, the slides are washed with distilled H 2 0 for 15 minutes, then in acetic acid 1 twice for 15 minutes and finally dyed for 1 minute in Pyronin Y (SIGMA ref. P 7017) 1 in for some seconds with distilled water, dried in hot air and mounted on DPX.
EXAMPLE CONTROL OF THE QUALITY OF THE SORTING OF A BOVINE SPERMATOZOA POPULATION WITH THEDNA PROBES SPECIFIC OF THE MALE SEX ACCORDING TO THE INVENTION Preparation of the cells Cells used are :ullspermatozoa frozen and stored in liquid nitrogen. A small flake is thawed, being about 13,000,000 living spermatozoa. The flakes are reheated for 30 seconds 3 at 370 C and then the sperm diluted in 1 ml of sterile PBS.
A series of centrifugations for the purpose of maximum removal of the the freezing medium follows. The suspension of spermatozoa in PBS is first centrifuged for 10 mn at 500 g, the supernatant is sucked out and the spermatozoa taken up again in 1 ml of 0.11 M sodium citrate. They are centrifuged
CC-,
ATCAGTGCAGGGACCGAGATGTGCTCCAAGGAGTGTTTATCGGCTGCTT
(A)
is mn at 500 g. The supernatant is sucked out, and the spermatozoa are again in 1 ml of 0.11 M sodium citrate 5 DMSO, centrifuged 10 mn at 500 g. The supernatant is sucked out, the spermatozoa are resuspended in 1 ml of 0.11 M sodium citrate 15 DMSO. They are centrifuged 10 mn at 500 g. The supernatant is sucked out, the spermatozoa resuspended in 1 ml of 0.11 M sodium citrate 50 DMSO. They are centrifuged mn at 500 g. The supernatant is sucked out the spermatozoa are resuspended in 1 ml of 0.11 M sodium citrate in Tris-HCl 0.1 M pH 7.4 and centrifuged 10 mn at 500 g. The supernatant is sucked out and the spermatozoa resuspended in 250 l of the same buffer.
At this stage, the cells are either deposited on a slide 40 lu of spermatozoa suspension per slide) and treated by hybridization in situ with one of the biotinylated probes of formulae to or deposited on a filter and hybridization by the dot-blot technique with one of the probes of formulae to (29) labelled by means of radio-active nucleotides.
EXAMPLE 6 GENIC AMPLIFICATION IN VITRO OF THE MOLECULAR PROBES OF DNA SPECIFIC OF THE MALE GENOME OF RUMINANT MAMMALS, PARTI- CULARLY OF THE BOS GENUS.
The genic in vitro amplification process is based on successive cycles of hybridization of probes with the oligonucleotidic "primers" (the "primers" are flanki g segments and, specifically, in the present cae, anyone of the fragments of formu- Slae to extension from the "primers", by means of DNA-polymerase enzyme and denaturation, for example-by a procedure called PCR ("Polymerase chain reaction") described by the CETUS CORPORATION COMPANY (cf. particularly MULLIS et al. COLD SPRING HARBOR SYMPOSIA ON QUANTITATIVE BIOLOGY, Vol. I-I, 1986, pages 263-272).
The cells of a biopsy are deposited in a microtube under a volume of ll in PBS 35 p of H 2 0 are added, then the tube is placed at 950 C for 10 minutes to lyse the cells Sto lyse -I i f 4 19 and denature the DNA. In the lysate is added 55 li of the PCR buffer (50 mM KC1, 10 mM Tris pH 8,3,8 mM MgC1 2 1 4M of primer A to be fixed to one of the end of the probe, 1 [iM of primer B to be fixed to the other end of the probe, 1.5 mM of ATP, 1.5 mM of dCTP, 1.5 mM dTTP, 1.5 mM dGTP. The specimens are then transferred at a suitable temperature for 2 minutes so that the primers are fixed. The extension of the strands is primed by the addition of 4 units of "Taq Polymerase" (CETUS CORPORATION) and incubation at 690 C for 2 minutes.This cycle is repeated 30 to 40 times. The samples are then denaturated in a solution 0.4 N NaOH, 25 mM EDTA and deposited on a nylon membrane manually or by means of a dotblot apparatus. The repetition of this cycle 30 to 40 times 12 procures an increase of 1 X 10 times the amount of the starting sequence which constitutes the probe proper.
The membranes are then neutralized and dried at 800 C, prehybridized and hybridized at 40 or at 650 C according to the primer employed, in a buffer 5 X SSPE, 5 X Denhart, 0.5 SDS containing the probes radio-labelled at 5' end with X432P/ ATP by means of the polynucleotide-kinase enzyme, Probes (49 mer or 17 mer or 20 mer) may be either radio-active, or labelled with biotine or with another cold compound. The hybridization is carried out from 40 to 60 o C for 1 hour.
The membranes are then washed twice in 2 X SSPE, 0.1 SDS at room temperature, followed by the washing at 450 C in the same buffer for 10 minutes. For the radio-active probes, the autoradiography is performed for 30 minutes to 10 hours at -800 C with an intensifying screen. For the cold probes, the demonstration of the hybridization is done by a sequence of immunocytochemical reactions described in Example 3 above.
In the case of a specific example in which the primers A and B are respectively the fragment of formula and the fragment of formula 3' Amorce A :TTATCGGCTGCTTGATC (7) 0 orce B :GATCAGTGCAGGGACCG hbiiai i I? _i~ i fragment of 4 kbp the bovine male DNA and this application has given the partial sequence -mprising these two fragments the PCR cycle progresses in the following manner The biopsy cells are deposited in a microtube in a volume of 10 Ll in PBS with the addition of 35 1 of H 2 0, as described above however, the tube is placed at 950 C for only 2 minutes and the operations are continued as described above, except that the samples are transferred for 2 minutes at 550 C and the incubation with the "Taq Polymerase" takes place at 690 C for 2 minutes and the cycle is repeated 40 times.
With other primers it will be recommendedto perform the incubation with the "Taq Polymerase" at a lower temperature, of the order of 370 C for example, or to perform the incubation in certain cycles at this temperature, and at 550 C in other cycles, the durations being opportunely slightly prolongea or reduced according to the primers employed.
The probe employed may be a probe selected from among the probes or fragments of formulae A and 1 to 29. It will be possible, for example, yith the primers of formulae (7) and to use a probeofformula (4) 20 5' 3' AGATGTGCTCCAAGGAG (4 In such a case, the prehybridization is carried out as well as the hybridization, at 650 C.
With this system, a very intense male signal is obtained, distinct from that of females which is very weak, starting from 125 picograms of DNA, namely the equivalent of 25 cells and directly from cells,with 50 male cells, after 30 minutes autoradiography.
In the same manner, by using, for example, as a probe a fragment of formula or formula with the primers respectively of formulae and a specifically male signal is obtained, from 125 picograms of DNA.
Although the foregoing description has essentially taken account of the part played by the probes of formulae to 1 I i 21 for the determination of the sex of bovine embryos, the checking of the presenceof the Y chromosome in a spermatozoa population and the separation of the latter into two groups comprising respectively the Y chromosome and the X c.hromosome for their use in artificial insemination, easily understood that this role may extend to other animals to the extent that the latter show DNA sequences specific of the male sex similar to those of said bovine embryos in the same way, the role of probes of formulae (1) to (29) as described in the foregoing, is given purely by way of non-limiting example and may be extended to the research of other specific sequences of the male sex.
Thus as emerges already from the foregoing, the invention is in no way limited to those of these types of performing embodiments and uses which havejust been described more explicitely it encompasses on the contrary all modifications which may come to the spirit of a technician in the art, without departing from the scope, nor of the range of the present invention.
il
J
A C
Claims (9)
1. A synthetic oligonucleotide specific for the male genome of ruminants, particularly of the Bos genus comprising 17 bases and having a nucleotide sequence selected from the group consisting of the formulae 1 to 8 below: 51 3' GATCAGTGCAGGGACCG 3' CAGGGACCGAGATGTGC 3' GGACCGAGATGTGCTCC 5' 3' AGATGTGCTCCAAGGAG 3' CTCCAAGGAGTGTTTAT 5' 3 AGGAGTGTTTATCGGCT 3' TTATCGGCTGCTTGATC 5' 3' TGGTTGAGCTCAGGGAC and their complementary sequences, or any fragment having at least 60% homology with said oligonucleotides.
2. A synthetic oligonucleotide comprising 20 bases and having a nucleotide sequence selected from the group consisting of the formulae to (11) below: 3' ATCAGTGCAGGGACCGAGAT 3' GTGCTCCAAGGAGTGTTTAT 3' (11) GGACCGAGATGTGCTCCAAG and their complementary sequences, or any fragment having at least 60% homology with said oligonucleotides.
3. A synthetic oligonucleotide constituted by a DNA fragment specific for the male genome of a ruminant mammal, particularly of the Bos genus, adapted to be associated with Sthe ends of the nucleotides according to Claim 1 or Claim 2 Clai Clai 2 given below -23- for the purpose of amplification, which fragment has a nucleotide sequence selected from the group consisting of the formulae (12) to (29) below: 3' ACCGGTCTAGGTCTAGCCCTTGTTCGGGACGCACATCACAGGCTCCTGAGCCCCCATCTC (12) 3' GGTAGAGCCCGCATCTCGGTCCCCGCGGTGAACCTGGCCCGGTTCCTACCCCAGTC (13) 3 CTGAGGCCTCCTCTCGCACTCTGCCCTGAAGCCGTGCGCGTCCTGCCCTCGATCAGACCT (14) 51 31 GACAGGGTGGGCCGTGCCCTCGTTCAGTCACCCGGGAAACACTGCTGAGCCCGCATCTTG .51 31 ACACTGCTGAGCCCGCATCTTGATCCCCGCGCTAAACCTGGCCGGCTCCTACCCCCAGG (17) 3' ACCGGTCTAGGTCTGGCCCTTGTTCGATTCACTCAGCACAGACTCCTGAG CCCCCATCTC V. AGCTGTGATCCCGCAGCTCANTCCCGGCACTGAAGCCACCTCTGGGGCTTGGCCTGCTTC (18) 1 31 AGAAGCAGTCTAGGGCCTGCCTTGTTCGGAATTCGGATGGATGCTGCCCTTGGGCAACAC (19) 31 TTCGGAATTCGGATGGATGCTGCCCTTGGGCAACACCCCCACCGCCCCCAAACTCACACA 51 31I AGCTCAACCACGGTGGTTTCTGCCTCTGGCCAAGGCCCTCGACAATCAATCCTGAGCCCA (21) 3' ATCTCACGCGCTGCACTAAACCACGCAGAGTTCCGCCCTTCCTGAAGTGCCCGTCTAAAG4 (22) 3' ACCAGTCGAGGTCCTGCCCTTTGTGCGGGCCCCTAGCACAGACTCCCGACCCAAACCTCT (23) at 370 C for 16 hours. The supernatant is concentrated to about 300 p1 and the urea S! d,'V 24 3' ACACTGCTGAGCCCGCATCTTGATCCCCGCGCTAAACCTGGCCGGGCTCCTACCCCCAGG (24) 3' ACCGGTCTAGGTCTGGCCCTTGTTCGATTCACTCAGCACAGACTCCTGAGCCCCCATCTC 3' CCCCCCGCCCGGTGTCTGCACTGATCCAGGCTGGCTCCTGCCCTCGGTCAAGACCCTGG (26) V 5' 3' AGCAGGCTGGCTCCTGCCTTCGTTCAAGCACCTGGCAAAGTAACCGCCGGGAGACTCCAG (27) AGCTGTGATCCCGCAGCTCACTCCCGGACTGAAGCCACCTCTGGGGCTTGGCCTGCTTC (28) 3 SAGAAGCAGTCTAGGGCCTGCCTTCTTCGATTCCCGCGACACACACTCCTGAGCCACAGCT (29) and their complementary sequences, or any fragment having at least 60% homology with said oligonucleotides.
4. A method for the gene amplification of a DNA target sequence specific to the male genome of mammals, particularly ruminants, comprising the steps of fixing to each of the ends, respectively, of the sequence to be S* amplified, a flanking sequence selected from the DNA fragments of formulae to (29) according to any one of Claims 1 to 3, by hybridization, then applying an enzymatic extension procedure by means of DNA-polymerase, followed by a denatruation procedure, and repeating the hybridization- extension-denaturation cycle a sufficient number of times to increase the amount of the target sequence in an exponential proportion with respect to the number of cycles employed. A method according to Claim 4 in which the target sequence is specific for the sub-family of bovines.
6. A method according to Claim 4 or claim 5 in which the target sequence is specific to the genus Bos.
7. Use of a fragment of DNA of any one of the formulae to (29) according to any one of Claims 1 to 3, labelled with a detectable marker, as a molecular probe for 5. Ametod acoring o Caim inwhic th taret SYNTHESIS AND PURIFICATION OF SYNTHETIC OLIGONUCLEOTIDES OF FORMULAE TO (11) ACCORDING TO THE INVENTION 0'
8. Use of a DNA fragment of any one of the formulae to (29) according to any one of Claims 1 to 3, labelled with a detectable marker, as a molecule probe for checking the presence of the Y chromosome in a spermatozoa population.
9. Use of a DNA fragment of any one of the formulae to (29) according to any one of Claims 1 to 3, labelled with a detectable marker, as a molecular probe for checking the sorting of spermatozoa in two populations of spermatozoa bearing respectively the Y chromosome and the X chromosome for their use for artificial insemination. 0. Use of a DNA fragment of any one of the formulae to (29) according to any one of Claims 1 to 3, advantageously suitably labelled and amplified by means of 0" one or several of the DNA fragments of formulae to (29) according to any one of Claims 1 to 3, for the determination of the sex of embryos or of foetuses of ruminant mammal.
118. Use of a DNA fragment of any one of formulae (1) S) to (29) according to any one of Claims 1 to 3, e•.advantageously suitably labelled and amplified by means of population. one or several of the DNA fragments of formulae 1 to (29) i* according to any one of Claims 1 to 3, for checking the dpresence of the Y chromosome in a spermatozoa population. 12. Use of a DNA fragment of any one of the formulae to (29) according to any one of Claims 1 to 3, labelled adv antageously suitably labelled and amplified by means of the orting of spermatozoa into two spermatozoa populations bearing respectively the Y chromosome and the X chromosome Sfor their use fo artificial insei..ation. 10. Use of a DNA fragment of any one of the formulae to (29) according to any one of Claims 1 to 12 in wnih the mammal is of the sub-family bovines.e o m e 1. Use according to Claim 12 in which the mamermal is of the genus Bos.f r r f seo nn S 1. Use of a DNAcess for preparagment of any one oclonal or to (29) according to any one of Claims 1 to 3, *advantageously suitably labelled and amplified by means of :one or several of the DNA fragments of formulae to (29) according to any one of Claims 1 to 3, for checking the presence of the Y chromosome in a spermatozoa population. 12. Use of a DNA fragment of any one of the formulae to (29) according to any one of Claims 1 to advantageously suitably labelled and amplified by means of one or several of the fragments of formulae to (29) according to any one of Claims 1 to 3, for checking the sorting of spermatozoa into two spermatozoa populations for their use fo artificial insegen .ation. wnich the mammal is of the sub-family bovines. 14. Use according to Claim 12 in which the mammal is of the genus Bos. 15. A process for preparation of monoclonal or i all to 4 14.- Use accoring- Cli 12i hc h amli ad.u storea at -20 C. RADIOACTIVE LABELLING (32p) OF THE to (11) SYNTHETIC (Single strand. FRAGMENTS L I -26- polyclonal antibodies comprising the step of immunization of a rodent with a fraction of spermatozoa bearing chromosome Y or X as checked by hybridization with a DNA fragment of any one of formulae to (29) according to any one of Claims 1 to 3. 16. A process for the preparation of monoclonal or polyclonal antibodies comprising the step of immunization of a rodent with a spermatozoa fraction bearing the Y or X chromosome as checked by hybridization with a DNA fragment of any one of the formulae to according to any one of Claims 1 to 3, or a probe of formula amplified by one or several DNA fragments of formulae to (29) according to any one of Claims 1 to 3. 17. A monoclonal or polyclonal antibody produced by the method of Claim 15 or Claim 16. 18. An immunological reagent comprising an antibody according to Claim 17, which recognizes an antigen expressed •at the surface of spermatozoa. •DATED this 17th day of December 1991 INSTITUT NATIONAL DE LA RECHERCHE AGRONOMIQUE (INRA) INSTITUT PASTEUR, and :COMMISSARIAT A L'ENERGIE ATOMIQUE (CEA) "By Their Patent Attorneys: GRIFFITH HACK C0 Fellows Institute of Patent Attorneys of Australia LH K
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
FR8711975A FR2619819B1 (en) | 1987-08-27 | 1987-08-27 | MOLECULAR DNA PROBES SPECIFIC TO THE MALE GENOME OF RUMINANTS, ESPECIALLY FROM THE BOVINE SUB-FAMILY AND PARTICULARLY OF THE GENUS BOS, FLANKING SEQUENCES FOR THE AMPLIFICATION OF THESE PROBES AND APPLICATIONS OF SAID PROBES |
FR8711975 | 1987-08-27 | ||
PCT/FR1988/000427 WO1989001978A1 (en) | 1987-08-27 | 1988-08-25 | Specific dna molecular probes for bos-type male genome |
Publications (2)
Publication Number | Publication Date |
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AU2321888A AU2321888A (en) | 1989-03-31 |
AU621556B2 true AU621556B2 (en) | 1992-03-19 |
Family
ID=9354456
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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AU23218/88A Ceased AU621556B2 (en) | 1987-08-27 | 1988-08-25 | Specific dna molecular probes for bos-type male genome |
Country Status (8)
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EP (1) | EP0377624A1 (en) |
JP (1) | JPH03503357A (en) |
AU (1) | AU621556B2 (en) |
DK (1) | DK51690A (en) |
FR (1) | FR2619819B1 (en) |
IN (1) | IN167595B (en) |
NZ (1) | NZ225953A (en) |
WO (1) | WO1989001978A1 (en) |
Families Citing this family (4)
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FR2648151B1 (en) * | 1989-06-08 | 1991-12-20 | Michel Georges | MINISATELLITE CATTLE SPECIFIC TO CHROMOSOME Y OF BOVINES |
WO1991017188A1 (en) * | 1990-05-08 | 1991-11-14 | A.B. Technolody Pty. Limited | Separation of mammalian semen into fractions enriched either for spermatozoa containing an x chromosome or for spermatozoa contai ning a y chromosome |
JP2593021B2 (en) * | 1991-12-13 | 1997-03-19 | 伊藤ハム株式会社 | How to identify bovine embryo sex |
AU2008338530A1 (en) * | 2007-12-14 | 2009-06-25 | Minitube Of America, Inc. | Gender-specific separation of sperm cells and embryos |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
AU7788687A (en) * | 1986-08-12 | 1988-03-08 | Australian National University, The | Sex determination in ruminants using y-chromosome specific polynucleotides |
AU3045189A (en) * | 1988-01-29 | 1989-08-25 | Advanced Riverina Holdings Limited | Determination of genetic sex in ruminants using y-chromosome-specific polynucleotides |
AU596642B2 (en) * | 1986-02-28 | 1990-05-10 | Commissariat A L'energie Atomique | Molecular probes, process for preparation thereof, and applications including their use for determining the sex of embryos |
Family Cites Families (4)
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US4448767A (en) * | 1977-10-11 | 1984-05-15 | Sumar Corporation | Preparation of monospecific male-specific antibody and the use thereof for increasing the percentage of mammalian offspring of either sex |
FR2566911A1 (en) * | 1984-06-29 | 1986-01-03 | Pasteur Institut | PROBE AND METHOD FOR THE DIAGNOSIS OF THE SEX OF A HUMAN EMBRYO |
ATE65092T1 (en) * | 1985-05-31 | 1991-07-15 | Amoco Corp | AMPLIFICATION OF HYBRIDIZATION SIGNALS THROUGH USE OF COMPLEMENTARY DNA STRANDS. |
US4769319A (en) * | 1985-05-31 | 1988-09-06 | Salk Institute Biotechnology Industrial Associates, Inc. | Nucleic acid probes for prenatal sexing |
-
1987
- 1987-08-27 FR FR8711975A patent/FR2619819B1/en not_active Expired - Lifetime
-
1988
- 1988-08-25 AU AU23218/88A patent/AU621556B2/en not_active Ceased
- 1988-08-25 EP EP19880907713 patent/EP0377624A1/en not_active Withdrawn
- 1988-08-25 WO PCT/FR1988/000427 patent/WO1989001978A1/en not_active Application Discontinuation
- 1988-08-25 JP JP88507066A patent/JPH03503357A/en active Pending
- 1988-08-26 NZ NZ225953A patent/NZ225953A/en unknown
- 1988-08-30 IN IN609/MAS/88A patent/IN167595B/en unknown
-
1990
- 1990-02-27 DK DK051690A patent/DK51690A/en unknown
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
AU596642B2 (en) * | 1986-02-28 | 1990-05-10 | Commissariat A L'energie Atomique | Molecular probes, process for preparation thereof, and applications including their use for determining the sex of embryos |
AU7788687A (en) * | 1986-08-12 | 1988-03-08 | Australian National University, The | Sex determination in ruminants using y-chromosome specific polynucleotides |
AU3045189A (en) * | 1988-01-29 | 1989-08-25 | Advanced Riverina Holdings Limited | Determination of genetic sex in ruminants using y-chromosome-specific polynucleotides |
Also Published As
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IN167595B (en) | 1990-11-17 |
FR2619819A1 (en) | 1989-03-03 |
NZ225953A (en) | 1991-04-26 |
WO1989001978A1 (en) | 1989-03-09 |
JPH03503357A (en) | 1991-08-01 |
DK51690D0 (en) | 1990-02-27 |
DK51690A (en) | 1990-04-27 |
FR2619819B1 (en) | 1990-08-10 |
EP0377624A1 (en) | 1990-07-18 |
AU2321888A (en) | 1989-03-31 |
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